Pharmaceutical composition for preventing and treating cell proliferative disease comprising mixture of feather of birds and scale of fish as an active ingredient

ABSTRACT

The present invention relates to a pharmaceutical composition for preventing and treating cell proliferative diseases comprising a feather of birds and a scale of fish, a scale transformed from the dermis, a degenerated or cornified variant of a scale, or a scale or horny scale of reptiles as an active ingredient. More particularly, the present invention relates to a pharmaceutical composition for preventing and treating cell proliferative diseases comprising a mixture of 70-85 weight % of a feather of birds and 15-30 weight % of a scale of fish, a scale transformed from the dermis, a degenerated or cornified variant of a scale, or a scale or horny scale of reptiles as an active ingredient. The inventive composition has the effect of inhibiting and preventing growth of cancer cells. Accordingly, the inventive composition may be used for anticancer purposes to prevent, ameliorate or treat cancer.

TECHNICAL FIELD

The present invention relates to a pharmaceutical composition forpreventing and treating cell proliferative diseases comprising featherof birds and a scale of fish, a scale transformed from the dermis, adegenerated or cornified variant of a scale, or a scale or horny scaleof reptiles as an active ingredient. More particularly, the presentinvention relates to a pharmaceutical composition for preventing andtreating cell proliferative diseases comprising a mixture of 70˜85weight % of feather of birds and 15˜30 weight % of a scale of fish, ascale transformed from the dermis, a degraded or cornified variant of ascale, or a scale or horny scale of reptiles as an active ingredient.

BACKGROUND ART

Cancer is a class of diseases resulting from uncontrolled proliferationand non-systemic growth of transformed cells. Mostly, cancers are causedby mutations in oncogenes and tumor suppressor genes which occur due toenvironmental, genetic or other causes. In the early stages, cancercells proliferate and invade and destroy nearby tissues. In the laterstages, they invade the circulatory system and spread to distant areas,ultimately resulting in the death of the victim.

In order to treat cancers, surgeries, radiotherapies, chemotherapies,and the like are applied, and various substances known to haveanticancer effect are used. Although most chemical anticancer agentsexhibit the effect of controlling cell growth, they are withoutselectivity for cancer cells and tend to show toxicity to normal cells.Accordingly, development of new anticancer agents which provide superiorselectivity cancer cells, have less toxicity and are capable ofovercoming resistance is needed.

Feathers are one of the epidermal variants that form the distinctiveouter covering on birds. The major component of a feather is keratin.Embryologically, it corresponds to the hair of mammals or the scale ofreptiles. The feather of birds consists of a calamus (or hollowshaft)which inserts into a follicle in the skin, a rachis which is connectedto the calamus and serves as the main shaft, and a plurality of barbswhich are branched from the rachis. Small barbs are entangled with eachother to form a vane. In general, a feather has brown or black melaninpigments and thus has a color. Typically, it is composed of fibrous hardproteins insoluble in water or aqueous salt solution. The feather isderived from the bone and is rich in calcium. Connected by calciumchains, the feather is air-permeable and structurally adequate forflying.

The scale of fish refers to a small rigid plate that covers the skin offish. The scale of fish is derived from the dermis (consisting ofconnective tissue). It has various shapes and numbers depending onspecies. For instance, the numbers of vertically aligned are 33 for acarp, 27 for a crucian carp, 150 for a salmon, and 118 for a trout. Thechemical composition of a scale is 41˜84% of dry organic components andabout 59% of ash components. Most of the organic components are hardprotein collagen (24%) and lepidin (76%). As for a carp, the ashcomponents account for 29.58%. They are Ca₃(PO₉)₂ (51.42%), Mg₃(PO₄)₂(6.45%) and CaCO₃ (42.17%). The contents of calcium phosphate andcalcium carbonate are almost the same. The scales are obtained asbyproduct during the processing of fish, but are mostly discarded. Someof them are powdered after heating for use as feed or fertilizer.

The inventors of the present invention have carried out researches tofind substances from natural products that can prevent and inhibitproliferation of cancer cells. As a result, we have found that acomposition comprising a feather of birds, particularly a calamus and arachis, and a scale of fish, a scale transformed from the dermis, adegenerated or cornified variant of a scale, or a scale or horny scaleof reptiles has superior anticancer effect and completed the presentinvention.

DISCLOSURE Technical Problem

Accordingly, an object of the present invention is to provide acomposition for preventing and treating cell proliferative diseases.

Technical Solution

In order to attain the aforesaid object, in an aspect, the presentinvention provides a composition for preventing and treating cellproliferative diseases comprising feather of birds and a scale of fish,a scale transformed from the dermis, a degenerated or cornified variantof a scale, or a scale or horny scale of reptiles in the form of powder.

In another aspect, the present invention provides a method for preparinga powder of a feather of birds.

In another aspect, the present invention provides a method for preparinga powder of a scale of fish.

In another aspect, the present invention provides a method for preparinga powder of scale transformed from the dermis, or the like.

In another aspect, the present invention provides a method for orallyadministering the composition of the present invention.

Advantageous Effects

The inventive composition for preventing and treating cell proliferativediseases has the effect of inhibiting and preventing growth of cancercells. Accordingly, the inventive composition for preventing andtreating cell proliferative diseases may be for anticancer purposes toprevent, ameliorate or treat cancer.

DESCRIPTION OF DRAWINGS

The above and other objects, features and other advantages of thepresent invention will be more clearly understood from the followingdetailed description taken in conjunction with the accompanyingdrawings, in which:

FIG. 1 is a graph showing the change of the tumor volume of a nude mousein which human colon cancer cells (HCT-15) were transplanted, where

G1: control

G2: doxorubicin, 2 mg/kg

G3: inventive anticancer composition, 75 mg/kg

G4: inventive anticancer composition, 150 mg/kg

G5: inventive anticancer composition, 300 mg/kg

G6: inventive anticancer composition, 300 mg/kg (pre-treated)

BEST MODE

Hereinafter, the present invention is described in more detail.

The pharmaceutical composition of the present invention is characterizedby comprising a powder of a feather of birds and a scale of fish, ascale transformed from the dermis, a degenerated or cornified variant ofa scale, or a scale or horny scale of reptiles as an active ingredient.

The feather of birds used to prepare the pharmaceutical composition ofthe present invention is not particularly limited. But, preferably, afeather of chicken, duck, turkey, goose or ostrich may be used. Morepreferably, a feather of chicken may be used.

As described above, a feather of birds comprises a calamus, a rachis andbarbs. The feather of birds may be used as a whole. But, preferably,only the calamus and the rachis of the feather of birds may be used. Inparticular, the portion of the feather of birds which exhibits colorincludes a lot of brown or black melanin pigments. According toexperiments, the compositions including these portions exhibitedsuperior effect. Therefore, it is preferred to use the portioncontaining a lot of melanin pigments.

The separation of the calamus, the rachis and the portions containing alot of melanin pigments from the feather of birds can be carried outwithout particular limitation. Preferably, they may be separated byhydrating the feather of birds by immersing in water followed byapplying physical force, for example, using a knife.

The water used for immersing the feather is not particularly limited.Preferably, common tap water or distilled water may be used, and onehaving a temperature from 20° C. to 77° C. is preferable. If the watertemperature exceeds 77° C., the epidermal tissue may be deformed. And,if the water temperature is below 20° C., hydration may be insufficient.The immersing time may be controlled depending on the condition of thematerials so as to attain sufficient hydration. Preferably, theimmersing time may be from 1 minute to 2 hours. If the immersing time isless than 1 minute, hydration may be insufficient. And, an immersingtime exceeding 2 hours is uneconomical and may result in deformation oftissues.

The pharmaceutical composition of the present invention comprises apowder of a whole feather of birds or of a calamus or rachis of afeather of birds prepared by the steps of: (a) immersing a feather ofbirds in water of 20° C.˜77° C. for 1 minute to 2 hours. (b) sterilizingthe immersed feather in brine with a salinity from 4.0 to 6.0 for 10minutes to 2 hours. (c) washing the feather with flowing water to removeimpurities. (d) immersing and sterilizing the feather in 0.1˜0.2 weight% (v/v) sodium chloride (NaCl) solution for 5 minutes to 1 hour (e)drying the feather at 15° C.˜30° C. for 30 minutes to 72 hours. (f)sterilizing the dried feather by irradiating 10˜400 nm UV for 10 minutesto 2 hours. (g) separating a calamus or a rachis from the sterilizedfeather. (h) sterilizing the separated calamus or rachis by irradiating10˜400 nm UV for 10 minutes to 2 hours. (i) cutting the sterilizedcalamus or rachis to 2˜7 mm for easier grinding. (j) sterilizing the cutfeather by irradiating 10˜400 nm UV for 10 minutes to 2 hours. (k)grinding the cut and sterilized calamus or rachis (l) sterilizing theresulting powder by irradiating 10˜400 nm UV for 10 minutes to 2 hours.

In the above preparation method, the water used for immersing andhydrating the feather is not particularly limited. Preferably, commontap water or distilled water may be used, and one having a temperaturefrom 20° C. to 77° C. is preferable. If the water temperature exceeds77° C., the epidermal tissue may be deformed. And, if the watertemperature is below 20° C., hydration may be insufficient.

The immersing time may be controlled depending on the condition of thematerials so as to attain sufficient hydration. Preferably, theimmersing time may be from 1 minute to 2 hours. If the immersing time isless than 1 minute, hydration may be insufficient. And, an immersingtime exceeding 2 hours is uneconomical and may result in deformation oftissues.

Meanwhile, Sterilization is performed in order to remove the saprophytesproliferating during the immersion from the feather. The sterilizationmethod may be any one known in the art, as long as the feather is notdeformed. Preferably, the feather is immersed in brine with a salinityfrom 4.0 to 6.0 for 10 minutes to 2 hours. Then, after removing theimpurities, 1˜2 g of NaCl in 1 L of water is added, and immersing andsterilization are carried out for 5 minutes to 1 hour. After completionof the immersion and prior to drying, the feather is washed using tapwater or distilled water so as to remove remaining NaCl. The removal ofimpurities is performed by applying physical force after the feather issufficiently hydrated by the immersion.

The method for drying the washed feather of birds is not particularlylimited. Preferably, the feather is dried in a well ventilated place,out of the direct rays of the sun. Preferably, the feather is driedcompletely for 30 minutes to 72 hours at 15° C.˜30° C., preferably atroom temperature of about 25° C. Then, UV irradiation is carried out asdescribed below.

The separation of the calamus and the rachis is performed as follows.The whole of the dried feather may be used. But, more preferably, thecalamus portion with well-developed optical properties and multilayerstructure and rich in keratin, and the rachis calamus rich in keratinand melanin pigments are screened out from the feather. From the driedfeather, the portions other than the calamus and rachis portions, thatis, barbs and vanes are completely removed (taken off) from the rachisby applying physical force. If the separated calamus or rachis is in badcondition or, if the lower portion of the calamus or the upper portionof the rachis is too thin, only the portions in good condition may beselected fro use. Then, UV irradiation is carried out as describedbelow.

The whole of the separated feather or the selected calamus or rachisportion is ground into a powder using grinding machine. If necessary,they may be cut finely (2˜7 mm) in advance, for easier grinding.

The resultant powder is sterilized using UV. UV with a wavelength of10˜400 nm is irradiated using a UV sterilizer without heat emission, ata distance of 10˜50 cm from the powder. The irradiation time is notparticularly limited, but 10 minutes to 2 hours is preferred.

The scale of fish, the scale transformed from the dermis, thedegenerated or cornified variant of a scale, or the scale or horny scaleof reptiles used to prepare the pharmaceutical composition of thepresent invention is not particularly limited. But, preferably, thescale of seawater fish having lots of scales, such as gray mullet, perchand rock trout, or freshwater fish having lots of scales, such as carp,crucian carp and trout, may be used. More preferably, the scale of graymullet may be used. The reptiles are not particularly limited, but snakeis preferred.

The scale of fish may be prepared by removing the scale from fish,followed by washing, and, preferably, powdering. The preparation methodis not particularly limited, and may be comprises the steps of (a)immersing a fish in water of 20° C.˜77° C. for 1 minute to 2 hours, andseparating and washing a scale of the fish (b) immersing and sterilizingthe scale washed in the step (a) in 0.1˜0.2 weight % (w/v) NaCl solutionfor 5 minutes to 1 hour. (c) immersing and sterilizing the scaleimmersed in the step (b) in 1˜3 weight % (v/v) vinegar solution for15˜20 minutes. (d) drying the scale immersed in the step (c) at 30°C.˜70° C. for 5 minutes to 48 hours. (e) sterilizing the scale dried inthe step (d) by irradiating with 10˜400 nm UV for 10 minutes to 2 hours.(f) cutting the scale sterilized in the step (e) to 2˜7 mm for easiergrinding. (g) sterilizing the scale cut in the step (f) by irradiatingwith 10˜400 nm UV for 10 minutes to 2 hours. (h) grinding the scalesterilized in the step (g) using a grinding machine. (i) sterilizing thepowder resulting from the step (h) by irradiating with 10˜400 nm UV for10 minutes to 2 hours. The procedures for immersion, washing, drying,sterilization, and UV treatment are the same as described above.

And, the powder of the scale transformed from the dermis, thedegenerated or cornified variant of a scale, or the scale or horny scaleof reptiles may be prepared by the steps of: (a) applying Physical forceto a dead body of fish or reptiles so as to separate the scale or skin;(b) sterilizing the separated scale or skin in brine with a salinityfrom 4.0 to 6.0 for 10 minutes to 2 hours; (c) immersing the scale orskin in 1˜3% (v/v) vinegar solution for 10˜20 minutes and sterilized;(d) washing the scale or skin with flowing water to remove impurities;(e) drying the washed scale or skin at 20° C.˜70° C. for 5 minutes to 72hours; (f) sterilizing the dried scale or skin by irradiating with10˜400 nm UV for 10 minutes to 2 hours; (g) cutting the scale or skin to3˜4 mm in width and length; (h) sterilizing the cut scale or skin byirradiating with 10˜400 nm UV for 10 minutes to 2 hours; (i) grindingthe scale or skin using a grinding machine; and (j) sterilizing theresulting powder by irradiating with 10˜400 nm UV for 10 minutes to 2hours. The procedures for immersion, washing, drying, sterilization, andUV treatment are the same as described above.

The anticancer pharmaceutical composition of the present invention maybe prepared by mixing the aforesaid ingredients. Preferably, 70˜85weight % of the feather of birds may be mixed with 15˜30 weight % of thescale of fish, the scale transformed from the dermis, the degenerated orcornified variant of a scale, or the scale or horny scale of reptiles.More preferably, 80 weight % of the feather of birds may be mixed with20 weight % of the scale of fish, the scale transformed from the dermis,the degenerated or cornified variant of a scale, or the scale or hornyscale of reptiles.

In one examples of the present invention, calamus and rachises ofchicken, duck, turkey and goose were used as the feather of birds, andthey were mixed with the powder of the scale of fish, the scaletransformed from the dermis, the degenerated or cornified variant of ascale, or the scale or horny scale of reptiles in order to prepare theinventive compositions.

In one test example of the present invention, the inventive compositionwas administered to a nude mouse to which colon cancer cells had beentransplanted, in order to confirm the anticancer effect. Then, theeffect of inhibiting the cancer cells was measured. As a result, about60% or more cancer cell growth inhibition effect was confirmed, ascompared to the control group to which nothing was administered.

Accordingly, the present invention provides a pharmaceutical compositionfor preventing and treating cell proliferative diseases which is able toinhibit and prevent the growth of cancer cells.

The pharmaceutical composition according to the present invention maycomprise the material prepared by the present invention singly with apharmaceutically effective amount or may further comprise at least onepharmaceutically acceptable carrier. As used herein, the term“pharmaceutically effective amount” refers to an amount resulting in abetter effect as compared to the control group and, preferably, anamount effective in treating or preventing cell proliferative diseases.

The pharmaceutically effective amount of the pharmaceutical compositionaccording to the present invention may be 10˜1000 mg/day/kg body weight,preferably 150˜600 mg/day/kg body weight. However, the pharmaceuticallyeffective amount may be varied adequately, depending on various factors,including particular disease and severity thereof, age, body weight,physical condition and sex of the patient, administration route, periodof treatment, and the like.

The diseases to which the pharmaceutical composition of the presentinvention can be applied are immunodeficiency-related diseases and cellproliferative diseases. The cell proliferative diseases are neoplasticdiseases caused by tumors, and may be, for example, cancer diseases. Thecancer diseases include, although not limited thereto, large intestinecancer, spleen cancer, colon cancer, lung cancer, liver cancer, stomachcancer, esophageal cancer, pancreatic cancer, gallbladder cancer, kidneycancer, bladder cancer, prostate cancer, testicular cancer, cervicalcancer, endometrial cancer, choriocarcinoma, ovarian cancer, breastcancer, thyroid cancer, brain cancer, head and neck cancer, malignantmelanoma, lymphoma, bone cancer, soft tissue sarcoma, spinal cancer, andthe like.

As used herein, the phrase “pharmaceutically acceptable” refers that thecarrier is physiologically acceptable, does not inhibit the action ofthe active ingredient when administered to human, and is non-toxicwithout allergic reactions such as gastroenteric trouble and dizzinessor other adverse reactions. The carrier includes all types of solvent,dispersive medium, oil-in-water or water-in-oil emulsion, aqueouscomposition, liposome, microbead and microsome.

Meanwhile, the pharmaceutical composition according to the presentinvention may be formulated along with an adequate carrier depending onthe administration route. No particular limitation is imposed on theadministration route of the inventive pharmaceutical composition, but itmay be administered orally.

In case the pharmaceutical composition of the present invention isadministered orally, the pharmaceutical composition of the presentinvention may be formulated along with an adequate carrier for oraladministration into powder, granule, tablet, pill, sugarcoated tablet,capsule, liquid, gel, syrup, suspension, wafer, or the like by a methodknown in the art. Examples of the adequate carrier may include asaccharide such as lactose, dextrose, sucrose, sorbitol, mannitol,xylitol, erythritol, maltitol, etc., a starch such as corn starch, wheatstarch, rice starch, potato starch, etc., a cellulose such as cellulose,methylcellulose, sodium carboxymethylcellulose,hydroxypropylmethylcellulose, etc., and a filler such as gelatin,polyvinylpyrrolidone, etc. Further, crosslinked polyvinylpyrrolidone,agar, alginic acid, sodium alginate, etc. may be added as disintegrant.In addition, the pharmaceutical composition may further comprise ananticoagulant, a surfactant, a wetting agent, a fragrance, anantiseptic, or the like.

Besides, those described in the following literature may be used as thepharmaceutically acceptable carrier: Remington's PharmaceuticalSciences, 19th ed., Mack Publishing Company, Easton, Pa., 1995.

Further, the pharmaceutical composition according to the presentinvention may comprise at least one buffer (e.g., saline or PBS),carbohydrate (e.g., glucose, mannose, sucrose or dextran), antioxidant,bacteriostat, chelating agent (e.g., EDTA or glutathione), adjuvant(e.g., aluminum hydroxide), suspension agent, thickener and/orpreservative.

And, the pharmaceutical composition of the present invention may beprepared into a formulation which can provide immediate, sustained ordelayed release of the active ingredient after being administered to amammal by a method known in the art.

Further, the pharmaceutical composition of the present invention may beadministered in combination with a compound known to have an effect ofpreventing or treating cancer diseases.

Further, the present invention provides a method for preparing a powderof a feather of birds. As describe above, the preparation methodcomprises the steps of: (a) immersing a feather of birds in water of 20°C.˜77° C. for 1 minute to 2 hours; (b) sterilizing the immersed featherin brine with a salinity from 4.0 to 6.0 for 10 minutes to 2 hours; (c)washing the feather well with flowing water to remove impurities; (d)immersing the feather in 0.1˜0.2 weight % (v/v) NaCl solution for 5minutes to 1 hour and sterilizing the same; (e) drying the feather at15° C.˜30° C. for 30 minutes to 72 hours; (f) sterilizing the driedfeather by irradiating with 10˜400 nm UV for 10 minutes to 2 hours; (g)separating a calamus or a rachis from the sterilized feather; (h)sterilizing the separated calamus or rachis by irradiating with 10˜400nm UV for 10 minutes to 2 hours; (i) cutting the sterilized calamus orrachis to 2˜7 mm for easier grinding; (j) sterilizing the cut feather byirradiating with 10˜400 nm UV for 10 minutes to 2 hours; (k) grindingthe cut and sterilized calamus or rachis; and (l) sterilizing theresulting powder by irradiating with 10˜400 nm UV for 10 minutes to 2hours. The procedures for immersion, washing, drying, sterilization, andUV treatment are the same as described above.

Further, the present invention provides a method for preparing a powderof a scale of fish. As describe above, the preparation method comprisesthe steps of: (a) immersing a fish in water of 20° C.˜77° C. for 1minute to 2 hours and separating and washing a scale of the fish; (b)immersing and sterilizing the scale washed in the step (a) in 0.1˜0.2weight % (w/v) NaCl solution for 5 minutes to 1 hour; (c) immersing andsterilizing the scale immersed in the step (b) in 1˜3 weight % (v/v)vinegar solution for 15˜20 minutes; (d) drying the scale immersed in thestep (c) at 30° C.˜70° C. for 5 minutes to 48 hours; (e) sterilizing thescale dried in the step (d) by irradiating with 10˜400 nm UV for 10minutes to 2 hours; (f) cutting the scale sterilized in the step (e) to2˜7 mm for easier grinding; (g) sterilizing the scale cut in the step(f) by irradiating with 10˜400 nm UV for 10 minutes to 2 hours; (h)grinding the scale sterilized in the step (g) using a grinding machine;and (i) sterilizing the powder resulting from the step (h) byirradiating with 10˜400 nm UV for 10 minutes to 2 hours. The proceduresfor immersion, washing, drying, sterilization, and UV treatment are thesame as described above.

The present invention further provides a method for preparing a powderof a scale transformed from the dermis, or the like. As describe above,the preparation method comprises the steps of: (a) separating a scaletransformed from the dermis, the degraded or cornified variant of ascale, or the scale or horny scale of reptiles from a dead body byapplying physical force; (b) sterilizing the separated scale or skin inbrine with a salinity from 4.0 to 6.0 for 10 minutes to 2 hours; (c)immersing and sterilizing the scale or skin in 1˜3% (v/v) vinegarsolution for 10˜20 minutes; (d) washing the scale or skin with flowingwater to remove impurities; (e) drying the washed scale or skin at 20°C.˜70° C. for 5 minutes to 72 hours; (f) sterilizing the dried scale orskin by irradiating with 10˜400 nm UV for 10 minutes to 2 hours; (g)cutting the scale or skin to 3˜4 mm in width and length; (h) sterilizingthe cut scale or skin by irradiating with 10˜400 nm UV for 10 minutes to2 hours; (i) grinding the scale or skin using a grinding machine; and(j) sterilizing the resulting powder by irradiating with 10˜400 nm UVfor 10 minutes to 2 hours. The procedures for immersion, washing,drying, sterilization, and UV treatment are the same as described above.

The aforesaid preparation methods may further comprise the steps of:sterilizing using brine with a salinity from 4.0 to 6.0 and 3% (v/v)vinegar solution; and sterilizing by irradiating with 10˜400 nm UV for10 minutes to 2 hours.

The present invention further provides a method for oral administrationof the inventive composition. The components of the inventivecomposition are the same as described above, and the method for oraladministration may be one known in the art.

MODE FOR INVENTION

Hereinafter, the present invention is described in more detail throughexamples.

However, the following examples are provided for illustrative purposesonly, and they are not intended to limit the present invention.

Example 1 Preparation of Inventive Composition 1-1. Preparation ofPowder of Bird (Chicken) Feather

A chicken feather was immersed in water of 77° C. for 20 minutes, andthen in brine with a salinity of 4 for 30 minutes. After washing wellwith flowing water, the feather was immersed in 0.1% NaCl solution for10 minutes and impurities were removed. Subsequently, the feather wasdried for 48 hours at room temperature, in a well ventilated place. Thedried feather was irradiated with UV for 1 hour, using a UV lamp(Birtcher, U.S.; no heat emission type) at a distance of 30 cm from thefeather. Other portions excluding the calamus or the rachis were removedby applying physical force (with hand). After irradiating with UV for 1more hour, using a UV lamp at a distance of 30 cm, they were cut to asize of about 5 mm using a cutter. After irradiating with UV for 1 hour,using a UV lamp at a distance of 30 cm, followed by grinding using agrinding machine, a powder of chicken feather was prepared byirradiating the resulting powder with UV for 1 hour, using a UV lamp ata distance of 30 cm.

1-2. Preparation of Scale Powder

A dead body of gray mullet was immersed in water of 50° C. for 20minutes. The outer surface was cleaned using a soft scrubber (or brush)and physical force was applied to separate the scale. The separatedscale was washed well and immersed in 0.1 weight % (w/v) brine for 10minutes, and then in 1 weight % (v/v) vinegar solution for 20 minutes.Then, impurities were completely removed by washing well with flowingwater. The scale was completely dried at room temperature (about 25° C.)for 24 hours. Then, UV was irradiated for 1 hour, using a UV lamp at adistance of 30 cm from the scale. After cutting to about 5 mm using acutter, UV was irradiated for 1 hour. After grinding using a grindingmachine, a scale powder was prepared by irradiating the resulting powderwith UV for 1 hour, using a UV lamp at a distance of 30 cm.

Also, the skin was separated from the scale, skin or horny scale of adead body of reptiles. The separated skin was immersed in brine with asalinity of 4.0 for minutes. After washing well with flowing water, theskin was immersed in 1 weight % (v/v) vinegar solution for 20 minutes.Then, impurities were completely removed by washing well with flowingwater. After drying at room temperature for 48 hours, in a wellventilated place, UV was irradiated for 1 hour, using a UV lamp at adistance of 30 cm. After cutting to about 3˜4 mm using a cutter, UV wasirradiated for 1 hour at a distance of 30 cm. After grinding using agrinding machine, a scale powder was prepared by irradiating theresulting powder with UV for 1 hour, using a UV lamp at a distance of 30cm.

1-3. Preparation of Inventive Composition

The feather powder of chicken and the scale powder of gray mulletprepared in Examples 1-1 and 1-2 were mixed at a proportion of 80 weight% and 20 weight %, respectively, to prepare an anticancer composition ofthe present invention.

Example 2 Preparation of Inventive Composition

A composition of the present invention was prepared in the same manneras in Example 1-3, except for using a feather of duck in Example 1-1.

Example 3 Preparation of Inventive Composition

A composition of the present invention was prepared in the same manneras in Example 1-3, except for using a feather of turkey in Example 1-1.

Example 4 Preparation of Inventive Composition

A composition of the present invention was prepared in the same manneras in Example 1-3, except for using a feather of goose in Example 1-1.

Test Example Measurement of Anticancer Effect of Inventive AnticancerComposition

The anticancer effect of the inventive composition was tested at theChemon Preclinical Research Center (approved by the KGLP) using a nudemouse transplanted with human colon cancer cells.

7-weeks-old specific pathogen free (SPF) athymic BALB/C nude mice (SLCJapan, Japan) were weighed and grouped to 6 groups, 10 per each group,as follows: negative control group (1), positive control group (1) andtest groups (4). The mice were identified by the identification label ofthe cage and using ear punching.

The test groups were designed as in Table 1.

TABLE 1 Administration Number of Number Animal amount administrationsGroup Sex (heads) No. (mg/kg) (time/day) G1 female 10  1~10 0 2 G2female 10 11~20 2 0.5 G3 female 10 21~30 75 2 G4 female 10 31~40 150 2G5 female 10 41~50 300 2 G6 female 10 51~60 300 2 Gl: negative controlgroup (excipient) G2: positive control group (abdominal administrationof positive control substance once in 2 days) G3~G6: test substanceadministration groups (for G6, test substance had been administered for3 weeks prior to transplantation of colon cancer cells)

Colon cancer cells (HCT15) were thawed in a constant-temperature waterbath of 37° C. as soon as possible. After mixing well with 10 mL ofRPMI1640 culture medium (Sigma Aldrich, USA), centrifuge was performedat 1000 rpm for 10 minutes. The resulting cell pellet was mixed wellwith 5 mL of RPMI1640 culture medium containing 10% fetal bovine serum(FBS), and the cells were cultured in a cell culture flask under thecondition of 37° C. and 5% CO₂. The cultured cancer cells were suspendedin physiological saline to a concentration of 1×10⁷ cells/mL andtransplanted subcutaneously to the mice, 0.3 mL (3×10⁶ cells) each.

The composition prepared in Example 1 was suspended at variousconcentrations in sterilized, distilled water for injection (ChoongwaePharma Corporation, Korea) as excipient, ground using a grinding machine(homogenizer), and orally administered to the mice at a dose of 75 mg/kgbody weight (G3), 150 mg/kg body weight (G4) or 300 mg/kg body weight(G5), respectively, for 3 weeks, twice a day. Of the test groups, thepre-administration group (G6) had been orally administered with thecomposition at a dose of 300 mg/kg body weight for 3 weeks, twice a day,before the transplantation of the cancer cells. Following thetransplantation of the cancer cells, they were administered in the sameway for 3 weeks.

In the negative control group (G1), the excipient was orallyadministered for 3 weeks, twice a day, instead of the inventiveanticancer composition. In the positive control group (G2), doxorubicinwas abdominally administered at a dose of 2 mg/kg body weight for 3weeks, once in 2 days, instead of the inventive anticancer composition.The doxorubicin solution was prepared by dissolving in the excipient bya method known in the art.

During the test, the mice were kept under the condition of 23±3° C. andrelative humidity of 55±15%, and access to water and feed was allowedfreely.

Tumor volume was measured on days 12, 15, 19 and 22 after theinoculation of the cancer cells. Length, width and height of the tumorwere measured using a vernier caliper, and the tumor volume wascalculated by the following equation:

Tumor volume=(Length×Width×Height)÷2

The tumor volume measurement result is given in Table 2 (unit: mm³).

TABLE 2 Day 12 Day 15 Day 19 Day 22 G1 48.2 ± 21.9 141.1 ± 39.0  289.0 ±102.8 704.6 ± 212.4 G2 29.3 ± 16.0  93.7 ± 65.9  149.0 ± 77.6  258.6 ±160.1 G3 32.2 ± 27.0 100.5 ± 56.9  172.2 ± 71.9  251.9 ± 108.8 G4 53.0 ±29.1 104.2 ± 63.4  177.2 ± 106.4 235.3 ± 109.3 G5 33.1 ± 24.4  90.4 ±51.6  180.3 ± 84.7  232.1 ± 121.7 G6 34.5 ± 28.9  96.6 ± 55.8  193.6 ±78.6  214.2 ± 64.8 

On days 19 and 22, statistically significant (p<0.05) decrease of tumorvolume was observed in all the test groups (G3˜G6) to which theinventive composition was administered, as compared to the negativecontrol group (G1). On day 22 (when autopsy was carried out), the groupsG3-G6 showed tumor inhibition effects ([1−(tumor volume of administeredgroup/tumor volume of negative control group)]×100(%)) of 64.3%, 66.6%,67.1% and 69.6%, respectively. They were superior to that of thedoxorubicin administered group (G2; 59.5%).

Abnormal symptoms related with the administration of the inventivecomposition were not observed, and no significant change in body weightwas observed, as shown in Table 3 (unit: g).

TABLE 3 Day 4 Day 11 Day 18 Day 21 G1 19.93 ± 1.67  19.68 ± 1.53  19.80± 1.17  18.92 ± 1.29  G2 20.57 ± 0.99  20.51 ± 0.85  19.87 ± 0.99  18.85± 1.04  G3 20.58 ± 1.06  20.33 ± 1.08  19.94 ± 1.21  19.41 ± 1.48  G419.85 ± 0.51  19.90 ± 0.57  19.74 ± 0.49  19.26 ± 0.64  G5 20.11 ± 1.49 19.93 ± 1.46  19.90 ± 1.54  19.11 ± 1.59  G6 19.68 ± 0.82  19.86 ± 0.50 19.72 ± 0.85  19.16 ± 0.74 

From the above, it can be confirmed that the composition according tothe present invention is effective in inhibiting the proliferation oftumor cells.

Preparation Example Preparation of Capsule Comprising InventiveComposition

100.0 mg of the composition prepared in Example 1, 83.0 mg ofcornstarch, 175.0 mg of lactose and 2.0 mg of magnesium stearate weremixed homogeneously, and filled in a gelatin capsule, so that the weightof the contents per one capsule was 360 mg.

INDUSTRIAL APPLICABILITY

As can be seen from the foregoing, the inventive composition forpreventing and treating cell proliferative diseases has the effect ofinhibiting and preventing growth of cancer cells. Accordingly, theinventive composition for preventing and treating cell proliferativediseases may be used for anticancer purposes to prevent, ameliorate ortreat cancer.

1. A pharmaceutical composition for preventing and treating cellproliferative diseases comprising 70˜85 weight % of a feather of birdsand 15˜30 weight % of a scale of fish as an active ingredient.
 2. Apharmaceutical composition for preventing and treating cellproliferative diseases comprising 70˜85 weight % of a feather of birdsand 15˜30 weight % of a scale of fish, a scale transformed from thedermis, a degenerated or cornified variant of a scale, or a scale orhorny scale of reptiles as an active ingredient.
 3. The composition ofclaim 1 or claim 2, wherein the feather of birds is a powder of a wholefeather, a calamus or a rachis.
 4. The composition of claim 3, wherein apowder of a calamus or a rachis is prepared by a method comprising thesteps of: (a) immersing a feather of birds in water of 20° C.˜77° C. for1 minute to 2 hours. (b) sterilizing the immersed feather in brine witha salinity from 4.0 to 6.0 for 10 minutes to 2 hours. (c) washing thefeather with flowing water to remove impurities. (d) immersing andsterilizing the feather in 0.1˜0.2 weight % (v/v) sodium chloride (NaCl)solution for 5 minutes to 1 hour (e) drying the feather at 15° C.˜30° C.for 30 minutes to 72 hours. (f) sterilizing the dried feather byirradiating 10˜400 nm UV for 10 minutes to 2 hours. (g) separating acalamus or a rachis from the sterilized feather. (h) sterilizing theseparated calamus or rachis by irradiating 10˜400 nm UV for 10 minutesto 2 hours. (i) cutting the sterilized calamus or rachis to 2˜7 mm foreasier grinding. (j) sterilizing the cut feather by irradiating 10˜400nm UV for 10 minutes to 2 hours. (k) grinding the cut and sterilizedcalamus or rachis (l) sterilizing the resulting powder by irradiating10˜400 nm UV for 10 minutes to 2 hours.
 5. The position of claim 1 orclaim 2, wherein the birds are selected from the group consisting ofchicken, duck, turkey, goose and ostrich.
 6. The position of claim 1,wherein a scale of fish is prepared by a method comprising the steps of:(a) immersing a fish in water of 20° C.˜77° C. for 1 minute to 2 hours,and separating and washing a scale of the fish (b) immersing andsterilizing the scale washed in the step (a) in 0.1˜0.2 weight % (w/v)NaCl solution for 5 minutes to 1 hour. (c) immersing and sterilizing thescale immersed in the step (b) in 1˜3 weight % (v/v) vinegar solutionfor 15˜20 minutes. (d) drying the scale immersed in the step (c) at 30°C.˜70° C. for 5 minutes to 48 hours. (e) sterilizing the scale dried inthe step (d) by irradiating with 10˜400 nm UV for 10 minutes to 2 hours.(f) cutting the scale sterilized in the step (e) to 2˜7 mm for easiergrinding. (g) sterilizing the scale cut in the step (f) by irradiatingwith 10˜400 nm UV for 10 minutes to 2 hours. (h) grinding the scalesterilized in the step (g) using a grinding machine. (i) sterilizing thepowder resulting from the step (h) by irradiating with 10˜400 nm UV for10 minutes to 2 hours.
 7. The position of claim 1, wherein the fish isselected from the group consisting of gray mullet, perch and rock trout,carp, crucian carp and trout.
 8. The position of claim 1 or claim 2,wherein cell proliferative diseases are neoplastic diseases caused bytumor.
 9. The position of claim 8, wherein the neoplastic diseases arecancer.
 10. The position of claim 9, wherein the cancer is selected fromthe group consisting of large intestine cancer, spleen cancer, coloncancer, lung cancer, liver cancer, stomach cancer, esophageal cancer,pancreatic cancer, gallbladder cancer, kidney cancer, bladder cancer,prostate cancer, testicular cancer, cervical cancer, endometrial cancer,choriocarcinoma, ovarian cancer, breast cancer, thyroid cancer, braincancer, head and neck cancer, malignant melanoma, lymphoma, bone cancer,soft tissue sarcoma, spinal cancer.
 11. The composition of claim 2,wherein the scale transformed from the dermis, the degradated orcornified variant of a scale, or the scale or horny scale of reptiles isprepared by a method comprising the steps of: (a) applying Physicalforce to a dead body of fish or reptiles so as to separate the scale orskin; (b) sterilizing the separated scale or skin in brine with asalinity from 4.0 to 6.0 for 10 minutes to 2 hours; (c) immersing thescale or skin in 1˜3% (v/v) vinegar solution for 10˜20 minutes andsterilizing; (d) washing the scale or skin with flowing water to removeimpurities; (e) drying the washed scale or skin at 20° C.˜70° C. for 5minutes to 72 hours; (f) sterilizing the dried scale or skin byirradiating with 10˜400 nm UV for 10 minutes to 2 hours; (g) cutting thescale or skin to 3˜4 mm in width and length; (h) sterilizing the cutscale or skin by irradiating with 10˜400 nm UV for 10 minutes to 2hours; (i) grinding the scale or skin using a grinding machine; and (j)sterilizing the resulting powder by irradiating with 10˜400 nm UV for 10minutes to 2 hours.
 12. The composition of claim 2, wherein the reptileis a snake.
 13. A method for preparing a powder of a calamus or a rachiscomprising the steps of: (a) immersing a feather of birds in water of20° C.˜77° C. for 1 minute to 2 hours; (b) sterilizing the immersedfeather in brine with a salinity from 4.0 to 6.0 for 10 minutes to 2hours; (c) washing the feather well with flowing water to removeimpurities; (d) immersing the feather in 0.1˜0.2 weight % (v/v) NaClsolution for 5 minutes to 1 hour and sterilizing the same; (e) dryingthe feather at 15° C.˜30° C. for 30 minutes to 72 hours; (f) sterilizingthe dried feather by irradiating with 10˜400 nm UV for 10 minutes to 2hours; (g) separating a calamus or a rachis from the sterilized feather;(h) sterilizing the separated calamus or rachis by irradiating with10˜400 nm UV for 10 minutes to 2 hours; (i) cutting the sterilizedcalamus or rachis to 2˜7 mm for easier grinding; (j) sterilizing the cutfeather by irradiating with 10˜400 nm UV for 10 minutes to 2 hours; (k)grinding the cut and sterilized calamus or rachis; and (l) sterilizingthe resulting powder by irradiating with 10˜400 nm UV for 10 minutes to2 hours.
 14. A method for preparing a powder of a scale of fishcomprising the steps of: (a) immersing a fish in water of 20° C.˜77° C.for 1 minute to 2 hours and separating and washing a scale of the fish;(b) immersing and sterilizing the scale washed in the step (a) in0.1˜0.2 weight % (w/v) NaCl solution for 5 minutes to 1 hour; (c)immersing and sterilizing the scale immersed in the step (b) in 1˜3weight % (v/v) vinegar solution for 15˜20 minutes; (d) drying the scaleimmersed in the step (c) at 30° C.˜70° C. for 5 minutes to 48 hours; (e)sterilizing the scale dried in the step (d) by irradiating with 10˜400nm UV for 10 minutes to 2 hours; (f) cutting the scale sterilized in thestep (e) to 2˜7 mm for easier grinding; (g) sterilizing the scale cut inthe step (f) by irradiating with 10˜400 nm UV for 10 minutes to 2 hours;(h) grinding the scale sterilized in the step (g) using a grindingmachine; and (i) sterilizing the powder resulting from the step (h) byirradiating with 10˜400 nm UV for 10 minutes to 2 hours.
 15. A methodfor preparing a powder of a scale transformed from the dermis, thedegenerated or cornified variant of a scale, or the scale or horny scaleof reptiles comprising the steps of: (a) separating a scale transformedfrom the dermis, the degraded or cornified variant of a scale, or thescale or horny scale of reptiles from a dead body by applying physicalforce; (b) sterilizing the separated scale or skin in brine with asalinity from 4.0 to 6.0 for 10 minutes to 2 hours; (c) immersing andsterilizing the scale or skin in 1˜3% (v/v) vinegar solution for 10˜20minutes; (d) washing the scale or skin with flowing water to removeimpurities; (e) drying the washed scale or skin at 20° C.˜70° C. for 5minutes to 72 hours; (f) sterilizing the dried scale or skin byirradiating with 10˜400 nm UV for 10 minutes to 2 hours; (g) cutting thescale or skin to 3˜4 mm in width and length; (h) sterilizing the cutscale or skin by irradiating with 10˜400 nm UV for 10 minutes to 2hours; (i) grinding the scale or skin using a grinding machine; and (j)sterilizing the resulting powder by irradiating with 10˜400 nm UV for 10minutes to 2 hours.
 16. An administration method of a composition ofclaim 1 or claim 2, wherein it is administered orally.
 17. The method ofanyone of claims 13 to 15, wherein the method comprises further steps ofsterilizing using brine with a salinity from 4.0 to 6.0 and 3% (v/v)vinegar solution; and sterilizing by irradiating with 10˜400 nm UV for10 minutes to 2 hours.